DE910317C - Moving iron instrument - Google Patents

Description

It is known, by means of which the current to be measured flows through ring-shaped coils whose magnetic field moves a piece of ferromagnetic material will display and measure currents and voltages. It is also known to be annular Surrounding coils with ferromagnetic material. It is used in the well-known moving iron instruments the sensitivity is reduced by the fact that the moving parts by damping devices and pointers become considerably heavier. This also improves the mechanical structure more complicated and expensive.

The task is to make the rotating system so light and so easy to make as possible.

According to the invention this object is achieved in that an annular Coil used by an annular core made of ferromagnetic material is surrounded, which has an annular air gap on the inside. By the current to be measured flows through this coil. It generates a through at the air gap the iron effect is a strong magnetic field. A plate made of ferromagnetic material, which is rigidly connected to the pointer, lies as an aniker in front of the air gap.

If the point of rotation of the pointer lies outside the center of the coil, so when the pointer is rotated, the distance between the point connected to the pointer changes ferromagnetic plate.

The rotation is in the direction that decreases the distance It is advantageous, the ring-shaped pole piece made of magnetic material, which the Coil surrounds to build up from two halves and the two halves against each other like that to move that the centers of the two E4reisringhäl'ften on both sides the center of the coil, which in this case is also the pivot point of the moving one System is lying.

Of particular advantage is a = follow-up form of the inventive idea, in which the impact force is applied directly to the coil spring generating the restoring force attacks. In this case, the return spring consists of ferromagnetic material. One end of the spiral spring is directly on the air gap of the pole shoe ring, the other end attached to the pivot system near the pivot point. As a result of that the spiral spring rests directly on the air gap and acts as the anchor Bridging the air gap, this version is particularly sensitive.

Fig. 1 shows a cross section through the arrangement according to the invention. It means 1 ring coil, 2 pole shoe rings made of ferromagnetic material, 3 air gaps. 4 plates made of ferromagnetic material, 5 pointers, 6 narrow bronze bands for Generation of the restoring force.

Fig. 2 shows a plan view with division of the pole shoe ring. It 7 means the first half of the pole shoe ring, 8 the second half, g ferromagnetic platelets Material, 10 hands, 11 bronze strap, the dashed circles show the location of the Toroidal coil.

Fig. 3 shows an embodiment in which the restoring force generating coil springs made of ferromagnetic material, on which the force of deflection attacks immediately. It means 12 first half of the pole shoe ring, I3 second Half, 14 two spiral springs made of ferromagnetic material, 15 rotating points, I6 Pointer. The dashed circles show the position of the ring coil.

Claims (3)

PATENT CLAIMS: 1. Device for measuring currents and voltages by means of magnetic forces for ring-shaped coils, which are made of a ferromagnetic ring Material are surrounded, characterized in that the annular magnetic material has an air gap on the inside and that one with the dreth system is rigid connected plate made of ferromagnetic material during the deflection rotation The distance to the air gap has been reduced. 2. Apparatus according to claim I, characterized in that the ring made of ferromagnetic material consists of two halves that are opposed to each other in such a way are shifted that the centers of the half rings on both sides of the pivot point of the rotatable system. 3. Apparatus according to claim I, characterized in that the impact force directly linked to the ferromagnetic coil springs that generate the restoring force Material attacks.